WO2018157471A1 - Current transformer for use in preventing over-saturation - Google Patents

Abstract

A current transformer for use in preventing over-saturation, comprising: an annular plastic housing, which is used for accommodating a transformer and which is provided with a bottom plate (1); an annular closed iron core (5), which is coupled with and connected to a primary circuit and which is disposed in the plastic housing; at least one secondary coil, which is wound on the closed iron core (5); the closed iron core (5) is provided thereon with at least one groove (4) such that the cross-sectional area of the groove (4) of the iron core (5) is smaller than the average cross-sectional area of a magnetic circuit of the closed iron core (5); the bottom plate (1) is provided thereon with a plurality of lifting platforms (2), which are used for lifting or lowering air gap insertion bodies (3) that are provided on the lifting platforms (2).

Description

Current transformer for preventing supersaturation Technical field

The invention relates to a current transformer, in particular to a current transformer for preventing supersaturation.

Background technique

The current transformer is a component that performs current conversion according to the principle of electromagnetic induction, and is widely used in power systems to function as a variable current and electrical isolation. The current transformer consists of a closed iron core and a winding. The winding includes a primary side and a secondary side winding. The primary side winding is connected in series in the primary circuit, and the secondary side winding is connected in series in the load circuit. According to the application, it can be roughly divided into a current transformer for measurement, a current transformer for protection, and a current transformer for energy use.

Current transformers for electronic circuit breakers generally require both current detection and power supply for electronic components. Currently, most current circuit breakers use a current transformer to perform both functions simultaneously. There are still some problems with single-current transformers: when the current is small, the electronic components cannot work normally due to insufficient power supply; when the current is large, such as more than 10 times the rated current, the current is saturated due to the saturation of the transformer core. The waveform is distorted, resulting in linear distortion, which may cause misjudgment of the electronic components to the operating state, causing the circuit breaker to malfunction or refuse. In order to solve the shortcomings of single-current transformers, the new generation of circuit breakers adopts dual-current transformer technology, which combines the energy-carrying current transformer for power supply and the hollow current transformer for measurement, so that a smaller primary current can be realized. Accurate measurement of extremely short circuit currents. However, there are two main problems in the current-carrying current transformer in the dual-current transformer: 1. The current-carrying current transformer uses the principle of electromagnetic induction to change the primary-side large current into the secondary-side small current as the circuit breaker's electron. Power supply for components. Since the consumption of electronic components is stable or the change is small, as the primary side current increases, the excess energy provided by the transformer will be consumed by the electronic components and the transformer itself. In this way, when the current on the primary side is large, the transformer will have a serious heat problem. 2. When the primary side current is large, for example, in the case of a short circuit, the core of the transformer will be saturated, and the magnetic flux will not change. At this time, the secondary winding will generate a narrow pulse voltage with a high amplitude, resulting in electronic components. The power circuit takes a short time to get enough energy to affect the power supply to the electronic components.

A commonly used method for limiting the secondary side current is to open an air gap in the magnetic circuit of the closed core, but the closed core inductance of the open air gap is reduced too much, and can only work under a large current measurement. When the primary side current is small, the secondary side provides insufficient electrical energy to allow the load electronics to function properly. A Chinese invention patent application (application number 200910176191.6, application date 2009-09-25, publication number CN101685725A, publication date 2010-03-31) discloses a method for limiting excessive current on the secondary side, The scheme divides the magnetic flux under the condition of large current by the transformer core and magnetic shunt, but the core of the above patent is complicated in shape and difficult to process. In addition, the air gap can only limit a single saturation current, but can not be flexibly adjusted, lacking versatility.

Summary of the invention

Based on solving the above problems of the transformer, the present invention provides a current transformer for preventing supersaturation, comprising:

An annular plastic housing for accommodating a transformer and having a bottom plate;

An annular closed iron core coupled to the primary circuit and placed in the plastic housing;

At least one secondary coil wound on the closed core, the closed core having at least one groove such that a cross-sectional area of the core at the groove is smaller than an average magnetic path cross-sectional area of the closed core;

The utility model is characterized in that the bottom plate has a plurality of lifting platforms, and the air gap inserting body disposed on the lifting platform is raised or lowered.

According to an embodiment of the invention, the air gap insert has the same shape as the groove.

According to an embodiment of the invention, the bottom plate is annular and its inner circle corresponds to the position of the inner circle of the closed core.

According to an embodiment of the invention, the air gap insert is a cured thermally conductive resin rod or a silica gel rod or the like.

According to an embodiment of the invention, the air gap insert is uniformly distributed with micron-sized particles of a core material.

According to an embodiment of the invention, the closed core is a laminated core.

According to an embodiment of the invention, each of the grooves is evenly distributed in the direction of the magnetic circuit of the closed core.

The invention also provides a circuit breaker comprising a current transformer for energizing other electronic components in the circuit breaker, characterized in that said current transformer is said current transformer.

The advantages of the invention are as follows:

(1) The air gap insert can take away the heat of the iron core and increase the service life of the transformer or circuit breaker;

(2) The iron core material particles of the air gap insert body on the one hand have a heat dissipation effect, and on the other hand, the ferromagnetic path in the groove can be adjusted;

(3) The lifting platform controls the depth of the insertion body deep into the groove, thereby controlling the blocking path of the ferromagnetic path, thereby flexibly controlling the saturation current.

DRAWINGS

1 is a schematic view of a current transformer for preventing supersaturation according to the present invention.

detailed description

Referring to FIG. 1, a current transformer for preventing supersaturation according to the present invention comprises: an annular plastic casing for accommodating a transformer, and having a bottom plate 1; an annular closed iron core 5 coupled to the primary circuit and placed in the a plastic housing; at least one secondary coil wound on the closed core 5, the closed core 5 having at least one recess 4, such that the cross-sectional area of the core 5 at the recess 4 is smaller than The average magnetic circuit cross-sectional area of the closed iron core;

The bottom plate has a plurality of lifting tables 2 for raising or lowering the air gap insertion body 3 provided on the lifting table 2.

The air gap insert 3 has the same shape as the groove 4, and the air gap insert 3 is a solidified heat-conductive resin rod or a silica gel rod or the like, and uniformly distributed with micron-sized particles of a core material. According to an embodiment of the invention, the bottom plate 1 is annular and its inner circle 7 corresponds to the position of the inner circle 6 of the closed core. The closed core 5 is a laminated core. Each of the grooves 4 is uniformly distributed in the direction of the magnetic circuit of the closed core.

The closed iron core 5 in the present invention may use an existing laminated closed iron core, a wound support iron core, a press-formed iron core, or an iron core connected by at least two open cores, etc. The groove 4 can be obtained by subsequent processing, or can be integrally formed with the iron core 5 by a special mold designed.

The invention also provides a circuit breaker comprising a current transformer for energizing other electronic components in the circuit breaker, characterized in that said current transformer is said current transformer.

It should be noted that the above-described embodiments are merely illustrative of the invention and are not intended to limit the embodiments. Other variations or modifications of the various forms may be made by those skilled in the art in light of the above description. There is no need and no way to exhaust all of the implementations. Obvious changes or variations resulting therefrom are still within the scope of the invention.

Claims (8)

A current transformer for preventing supersaturation, comprising: an annular plastic casing for accommodating a transformer, and having a bottom plate; an annular closed iron core coupled to the primary circuit and disposed in the plastic casing; at least one a secondary coil wound on the closed core, the closed core having at least one groove such that a cross-sectional area of the core at the groove is smaller than an average magnetic path cross-sectional area of the closed core; The utility model is characterized in that: the bottom plate has a plurality of lifting platforms, and the air gap inserting body disposed on the lifting platform is raised or lowered. A current transformer for preventing supersaturation according to claim 1, wherein said air gap insert has the same shape as said groove. A current transformer for preventing supersaturation according to claim 1, wherein said bottom plate is annular and an inner circle thereof corresponds to a position of an inner circle of said closed core. The current transformer for preventing supersaturation according to claim 1, wherein the air gap insert is a cured thermally conductive resin rod or a silica gel rod or the like. The current transformer for preventing supersaturation according to claim 4, wherein the air gap insert is uniformly distributed with micron-sized particles of a core material. A current transformer for preventing supersaturation according to claim 1, wherein said closed core is a laminated core. A current transformer for preventing supersaturation according to claim 1, wherein each of said grooves is evenly distributed in the direction of the magnetic circuit of the closed core. A circuit breaker comprising a current transformer for energizing other electronic components in a circuit breaker, characterized in that the current transformer is a current transformer according to any one of claims 1-7.

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